The development of a Th1-type response and resistance to Leishmania major infection in the absence of CD40-CD40L costimulation

CD40-CD40L interactions have been shown to be essential for the production of IL-12 and IFN-gamma and control of L. major infection. In contrast, C57BL/6 mice deficient in CD28 develop a dominant Th1-type response and heal infection. In this study, we investigate the effects of a deficiency in both CD40L and CD28 molecules on the immune response and the course of L. major infection. We compared infection in mice genetically lacking CD40L (CD40L(-/-)), CD28 (CD28(-/-)), or both (CD40L(-/-)CD28(-/-)), and in C57BL/6 mice, all on a resistant background. Although CD40L(-/-) mice failed to control infection, CD28(-/-) and CD40L(-/-)CD28(-/-) mice, as well as C57BL/6 mice, spontaneously resolved their infections. Healing mice had reduced numbers of lesion parasites compared with nonhealing CD40L(-/-) mice. At wk 9 of infection, we detected similar levels of IL-4, IFN-gamma, IL-12p40, and IL-12Rbeta2 mRNA in draining lymph nodes of healing C57BL/6, CD28(-/-), and CD40L(-/-)CD28(-/-) mice, whereas CD40L(-/-) mice had increased mRNA levels for IL-4 but reduced levels for IFN-gamma, IL-12p40, and IL-12Rbeta2. In a separate experiment, blocking of the CD40-CD40L pathway using Ab to CD40L led to an exacerbation of infection in C57BL/6 mice, but had little or no effect on infection in CD28(-/-) mice. Together, these results demonstrate that in the absence of CD28 costimulation, CD40-CD40L interaction is not required for the development of a protective Th1-type response. The expression of IL-12p40, IL-12Rbeta2, and IFN-gamma in CD40L(-/-)CD28(-/-) mice further suggests the presence of an additional stimulus capable of regulating IL-12 and its receptors in absence of CD40-CD40L interactions.

Elimination of lymphocytes, but not eosinophils, by Fas-mediated apoptosis in murine schistosomiasis

Infection with the helminth parasite Schistosoma mansoni is associated with a pathogenic granulomatous response to parasite eggs. Multiple cell types constitute the granuloma with eosinophils achieving numerical dominance. We hypothesize that eosinophil dominance is achieved by selective apoptosis in lymphocytes. We report here that lymphocytes from both the spleens and granulomas of S. mansoni-infected mice undergo apoptosis. We also show that granuloma lymphocytes are more susceptible to Fas-FasL-mediated apoptosis than spleen lymphocytes and this apoptosis may be related to antigen concentration. Conversely, eosinophils from the granuloma and spleens of S. mansoni-infected mice are resistant to apoptosis in vivo and are protected in vitro from Fas-FasL-mediated apoptosis by the absence of FasL expression in the presence of Fas expression. Finally, the apoptotic regulatory molecules Bcl-2, Bcl-xL, and Bax, do not appear to play a significant role in the regulation of eosinophil apoptosis in the schistosome granuloma.

Costimulation of memory T-cells by ICOS: a potential therapeutic target for autoimmunity?

Approaches that target costimulatory receptors are independent of T-cell receptor specificity and may be useful for T-cell-mediated diseases in which the antigens involved are not well defined. However, the proper costimulatory pathways need to be targeted. For example, therapies for human T-cell-mediated diseases need to be effective against previously activated memory cells. In this review, we use autoimmune demyelination as a paradigm for established immune-mediated pathogenesis. Studies with the human disease multiple sclerosis and the rodent model experimental autoimmune encephalomyelitis have suggested that the effectiveness of CD28 blockade, as a therapeutic strategy for established autoimmune demyelination, may be limited. ICOS, a receptor that appears to be involved in the costimulation of previously activated T-cells, may be an attractive alternative.

ICOS ligand costimulation is required for T-cell encephalitogenicity

The interaction of ICOS with its ligand on APC provides a costimulatory signal to previously activated T-cells. In these studies, we blocked the ICOS:ICOS ligand interaction with ICOS-Ig during the in vitro activation of MBP-reactive transgenic CD4(+) T-cells. The presence of ICOS-Ig in these cultures inhibited the ability of the transgenic T-cells to transfer EAE, although they entered the brains of the recipient mice. ICOS-Ig increased apoptosis in the transgenic T-cells, especially in the memory population. This enhanced apoptosis was accompanied by an increase in the BAX/BCL-2 mRNA ratio. ICOS-Ig did not prevent IL2 production, demonstrating that IL-2 production is ICOS ligand independent. IFN-gamma and IL-10 production by the transgenic T-cells, however, was suppressed. Finally, ICOS-Ig injection into mice after the first signs of EAE ameliorated clinical disease. Therefore, ICOSL provides a signal distinct from CD28 costimulation that is required for the activation and viability of encephalitogenic T-cells.

The role of costimulation in autoimmune demyelination

Experimental allergic encephalomyelitis (EAE) is a T cell-mediated, autoimmune disorder characterized by central nervous system (CNS) inflammation and demyelination, features reminiscent of the human disease, multiple sclerosis (MS). In addition to the signal the encephalitogenic T cell receives through the T cell receptor (TCR), a second signal, termed costimulation, is required for complete T cell activation. The B7 family of cell surface molecules expressed on antigen presenting cells (APC) is capable of providing this second signal to T cells via two receptors, CD28 and CTLA-4. Our studies have shown that costimulation provided by B7 molecules to its ligand CD28 is important in the initiation of the autoimmune response in EAE. Further, it appears the costimulation provided by B7-1 is important in disease development, while B7-2 may play an important regulatory role. We and others later showed that B7/CTLA-4 interaction plays a critical role in down-regulating the immune response. Previous work has shown that activated T cells and T cells of a memory phenotype are less dependent on costimulation than naive T cells. T cells reactive with myelin components that are involved in the pathogenesis of EAE and possibly MS would be expected to have been activated as part of the disease process. Building upon our prior work in the EAE model, we have tested the hypothesis that myelin-reactive T cells, which are relevant to the pathogenesis of CNS inflammatory demyelination, can be distinguished from naive myelin-reactive T cells by a lack of dependence upon costimulation for activation and that the costimulatory requirements of these myelin-reactive T cells change during the course of disease. Our studies in the EAE model have also addressed the mechanisms of extrathymic (peripheral) T cell tolerance following intravenous (i.v. ) administration of high dose antigen. It is believed that TCR signaling in the absence of costimulation is a vital component of peripheral tolerance mechanisms. However, recent evidence suggests that peripheral tolerance of antigen-specific T cells induced in vivo may require CTLA-4 engagement of the tolerized T cells. We have begun to examine the molecular mechanisms of tolerance induction following intravenous and intraperitoneal administration of myelin antigens in the EAE model and test the hypothesis that tolerance induction is dependent on the B7:CD28/CTLA-4 pathway. The results from our studies will enhance our understanding of the role that myelin-reactive T cells may play in the pathogenesis of MS. We have determined that MBP-reactive T cells in MS patients are less dependent upon CD28 costimulation than in normal controls, suggesting that these T cells were previously primed in vivo. Characterization of these CD28-independent myelin-specific T cells will have broad implications for a variety of immunologically based therapies in diseases such as MS.

Differential cytokine and chemokine production characterizes experimental autoimmune meningitis and experimental autoimmune encephalomyelitis

After primary immunization with myelin/oligodendrocyte glycoprotein, CD28(-/-) mice developed experimental autoimmune meningitis (EAM) rather than experimental autoimmune encephalomyelitis (EAE). Cytokine and chemokine production in EAE and EAM were compared to understand the differences in disease phenotype. T cells from the central nervous system lesions of mice with either EAE or EAM expressed intracellular TNF-alpha. Splenic T cells from mice with EAM produced TNF-alpha and IL-6 but no IL-2. Conversely, EAE-derived splenic T cells produced TNF-alpha and IL-2 but no IL-6. Altered T cell differentiation in EAM was not due to a Th1 to Th2 shift, because equivalent amounts of T cell IFN-gamma mRNA were produced in both diseases. Neutrophils also produced inflammatory mediators such as TNF-alpha and IL-6 in EAM. Autocrine production of MIP-2 mRNA was observed in neutrophils from mice with EAM but not EAE. Therefore, distinct patterns of cytokines and chemokines distinguish EAE and EAM.

The role of CTLA-4 in tolerance induction and ttigen administration cell differentiation in experimental autoimmune encephalomyelitis: i. v. antigen administration

Interactions between B7 molecules on antigen-presenting cells and CTLA-4 on T cells have been shown to be important in establishing tolerance. In the present study, we examined the kinetics of tolerance induction following i.v. administration of myelin basic protein (MBP) Ac1-11 in mice transgenic for a TCR V(beta)8.2 gene derived from an encephalitogenic T cell clone specific for MBP Ac1-11. Examination of the lymph node cell (LNC) response 10 days after antigen administration demonstrated an accentuation of i.v. tolerance induction with anti-CTLA-4 blockade. Anergy was induced in splenocytes by i.v. antigen administration as shown by a decrease in MBP-specific proliferation and IL-2 production, and anti-CTLA-4 potentiated this effect. In addition, i.v. antigen plus anti-CTLA-4 and complete Freund's adjuvant was not encephalitogenic. Interestingly, i.v. tolerance (a single injection) did not inhibit experimental autoimmune encephalomyelitis (EAE) and anti-CTLA-4 administration did not alter this phenotype. These results suggest that while the majority of MBP-specific T cells are tolerized by i.v. antigen and that this process is potentiated by anti-CTLA-4 administration, a population of T cells remains that is quite efficient in mediating EAE.

The role of CTLA-4 in tolerance induction and T cell differentiation in experimental autoimmune encephalomyelitis: i.p. antigen administration

Recent evidence suggests that co-stimulation provided by B7 molecules through CTLA-4 is important in establishing peripheral tolerance. In the present study, we examined the kinetics of tolerance induction and T cell differentiation following i.p. administration of myelin basic protein (MBP) Ac1-11 in mice transgenic for a TCR V(beta)8.2 gene derived from an encephalitogenic T cell clone specific for MBP Ac1-11. Examination of the lymph node cell response after antigen administration demonstrated a dependence on CTLA-4 for i.p. tolerance induction. Examination of splenocyte responses suggested that i.p. antigen administration induced a T(h)2 response, which was potentiated by anti-CTLA-4 administration. Interestingly, i.p. tolerance was able to inhibit the induction of experimental autoimmune encephalomyelitis and anti-CTLA-4 administration did not alter this phenotype, suggesting that CTLA-4 blockade did not block tolerance induction. Thus, T cell differentiation and the dependence on CTLA-4 for tolerance induction following i.p. antigen administration differs between lymph node and spleen in a model of organ-specific autoimmunity.

Differential requirements of naïve and memory T cells for CD28 costimulation in autoimmune pathogenesis

Experimental autoimmune encephalomyelitis (EAE) is the most extensively studied animal model of the human disease multiple sclerosis (MS). In EAE, CNS demyelination is induced by immunization with myelin proteins or adoptive transfer of myelin-reactive CD4+ T cells. Since the antigen specificity of the immune response believed to be responsible for the pathology of MS is not well defined, therapies that target aspects of T cell activation that are not antigen specific may be more applicable to the treatment of MS. As a result, understanding the role of costimulatory molecules in the activation of naïve and memory T cells has become an area of extensive investigation. Naïve T cells require two signals for activation. Signal one is provided by engagement of the T cell receptor (TCR) with MHC/peptide complexes and provides antigen specificity to the immune response. The second signal, termed costimulation, is usually provided by B7 molecules on APC to CD28 molecules expressed on T cells and is antigen-independent. This review will discuss our current understanding of costimulation in the induction and perpetuation of EAE, as well as the potential of costimulation blockade in the treatment of MS.

Blockade of CD28 during in vitro activation of encephalitogenic T cells or after disease onset ameliorates experimental autoimmune encephalomyelitis

Previous studies have shown complex roles for the B7 receptors in providing both positive and negative regulation of experimental autoimmune encephalomyelitis (EAE). B7 blockade can ameliorate clinical EAE by indirectly interfering with CD28 signaling. However, B7 blockade can also result in disease exacerbation, presumably by interfering with regulatory B7:CTLA-4 interactions. Therefore, we have directly targeted T cell CD28 with specific mAbs both during initial Ag priming and after the onset of clinical signs of EAE. We found that CD28 blockade ameliorated EAE during the efferent and afferent limbs of the immune response. Disease amelioration at disease onset was associated with suppression of TNF-alpha production. Finally, Ab blockade of T cell CD28 during the first disease episode resulted in significant attenuation of the subsequent disease course, with no significant relapses. In contrast to previous studies targeting APC B7 with CTLA4-Ig, reagents targeting CD28 can block ongoing disease. Therefore, the present results suggest a clinically relevant therapeutic scenario for human diseases, such as multiple sclerosis.

Susceptibility or resistance to Leishmania infection is dictated by the macrophages evolved under the influence of IL-3 or GM-CSF

Although enhanced monocytopoiesis is a hallmark of leishmaniasis, its significance in determining the course of the disease has not been addressed. While the number of granulocyte-macrophage colony-stimulating factor (GM-CSF)-secreting cells increases in the draining lymph nodes in a resistant mouse strain (C57BL/6) during disease, in a susceptible strain (BALB/c) the number of interleukin-3 (IL-3)-secreting cells increases. Treatment of BALB/c mice with anti-IL-3 antibody significantly reduces the disease score. Bone marrow macrophages derived under stimulation with IL-3 (IL-3-Mphi) or GM-CSF (GM-Mphi) differ functionally. GM-Mphi are significantly more responsive to IFN-gamma-induced augmentation and more refractory to IL-4-mediated suppression of anti-leishmanial activity than IL-3-Mphi. LPS-induced IL-12 and TNF-alpha secretion by both the susceptible and resistant strain-derived macrophage subsets are down-regulated. Despite down-regulation of IL-12 secretion, GM-Mphi favor expansion of IFN-gamma-secreting cells and IL-3-Mphi favor IL-6-dependent expansion of the IL-4-secreting Th subset. Adoptive transfer of leishmanial antigen-pulsed IL-3-Mphi and GM-Mphi prior to infection either aggravated or reduced the disease score, respectively, in BALB/c mice. Anti-IL-6 treatment reverted the Th subset profile not only in vitro but also in vivo, resulting in a reduced disease score in both infected BALB/c mice and IL-3-Mphi recipients. The disease score in IL-3-Mphi recipients is also reduced significantly after anti-IL-4 treatment.

Experimental autoimmune meningitis: a novel neurological disease in CD28-deficient mice

C57BL/6 mice develop T-cell-mediated experimental autoimmune encephalomyelitis (EAE) after immunization with the neuroantigen myelin oligodendrocyte glycoprotein. (MOG). We immunized CD28-deficient C57BL/6 mice to determine the role of T cell costimulation in the immune response to MOG. CD28-/- mice developed experimental autoimmune meningitis (EAM). EAM is a fatal, acute disease characterized by simultaneous weakness in all limbs, photophobia, irritability, and spatial disorientation. Histologically, EAM consisted of an infiltrate of myeloid, monocytic, and lymphocytic leukocytes within the leptomeninges. In contrast, the brain parenchyma was unaffected. EAM was mediated by CD4+ T cells since CD4 depletion prevented the disease. Upon rechallenge, mice in which EAM was prevented by CD4+ cell depletion developed EAE not EAM. Therefore, the presence or absence of CD28 determines the initial phenotype of the immune response to MOG. EAM, which develops in the absence of CD28, is a unique experimental model for immune-mediated aseptic meningitis.

Activated eosinophils are the major source of Th2-associated cytokines in the schistosome granuloma

Eosinophils are a numerically dominant cell population within the schistosome granuloma. These granuloma eosinophils can produce a variety of cytokines, including IL-2, IL-4, IL-5, and IFN-gamma. Therefore, eosinophils may play a key role in the determination of the unique cytokine microenvironment within the granuloma milieu. These studies investigated the potential role of eosinophils in the regulation of granuloma immunopathology. We have characterized spleen- and granuloma-derived eosinophils based on cellular activation and cytokine production during the development of murine schistosomiasis. Based on the criteria of hypodensity and CD69 expression, granuloma eosinophils were highly activated and very homogeneous at 7 and 11 wk postinfection. Splenic eosinophils were also activated at 7 wk postinfection, but were much more heterogeneous than their granuloma counterparts. By 11 wk postinfection, few hypodense splenic eosinophils were observed. Eosinophils represented the majority of cytokine-producing cells in the granuloma and were a dominant source of IL-4. Eosinophils also produced IL-2, IL-5, and IFN-gamma, using the criteria of mRNA in situ hybridization and intracellular cytokine staining by FACS. Granuloma eosinophil activation and cytokine production were greatest at the time of maximum granuloma formation, i.e., 10-12 wk after initial cercarial exposure. Therefore, locally activated eosinophils, not Th2 lymphocytes, produce the majority of Th2 cytokines in the granuloma milieu and may be important determinators of immunopathology in schistosomiasis.

CTLA4 (CD152) modulates the Th subset response and alters the course of experimental Leishmania major infection

Since both the nature and the amplitude of an antigen-specific T cell response are dependent on co-stimulatory signals, we have investigated the role of CD28/CD152-mediated T cell co-stimulation in the regulation of experimental cutaneous leishmaniasis. CD28-deficient mice and their wild-type littermates are equally susceptible to Leishmania major infection. Whole anti-CD152 antibody significantly exacerbates the disease while anti-CD152 Fab ameliorates the disease in genetically susceptible BALB/c mice but not in C57BL/6, a resistant strain. The anti-CD152-induced exacerbation of the disease is accompanied by increased IL-4-secreting cell number, diminished parasite-specific delayed-type hypersensitivity (DTH) response and augmented anti-2,4,6-trinitrophenyl (TNP) IgG1 in response to TNP-leishmanial antigen crude soluble antigen (CSA), suggesting an exaggerated Th2 type of response. Anti-CD152 Fab-mediated amelioration of the disease is associated with increased IFN-gamma-secreting cell number, increased parasite-specific DTH response and enhanced IgG2a isotype in response to TNP-CSA suggesting a Th1 type of response. Unlike TNP-CSA, TNP-keyhole limpet hemocyanin does not induce the change in Ig isotype, indicating that the immunomodulatory effect of anti-CD152 is antigen specific. Anti-CD152 antibody-induced early change in Th subsets suggests an important role for CD152 in determining the course of L. major infection, perhaps by alteration of Th subset differentiation.

The schistosome granuloma: characterization of lymphocyte migration, activation, and cytokine production

Granuloma formation and its regulation are dependent on lymphocytes. Therefore, we compared the characteristics of lymphocytes derived from the spleens and granulomas of Schistosoma mansoni-infected mice during the course of their disease. We examined lymphocyte cell cycle kinetics, migration, expression of activation Ags (CD69 and IL-2R), cytokine production (IL-2, IL-4, IFN-gamma), and apoptosis. Lymphocytes in the G2/M phase of the cell cycle and high levels of lymphocyte intracellular IL-2 were found in the spleen but not in the granuloma. Cell trafficking experiments showed Ag-specific recruitment of schistosomal egg Ag (SEA)-reactive lymphoblasts into granulomas in vivo, as well as recruitment to, residence within, and egress from granulomas in vitro. Granuloma-derived lymphocytes were more highly activated than splenic lymphocytes based on higher levels of CD69 and IL-2R expression. While the granuloma microenvironment was rich in Th2 cytokines, during peak granuloma formation, the lymphocytes per se from the spleen and granuloma did not exhibit a dominant Th1 or Th2 cytokine profile, producing low but similar levels of IL-4 and IFN-gamma. The discrepancy between high IL-2R expression and low levels of IL-2 protein production by granuloma lymphocytes was associated with increased apoptosis in the granuloma compared with the spleen. These findings support the hypothesis that granulomas may play a role in the regulation of systemic pathology in schistosomiasis by adversely affecting the survival of SEA-reactive, immunopathogenic T lymphocytes.

Nucleic acid vaccine-induced immune responses require CD28 costimulation and are regulated by CTLA4

Immunization with plasmids expressing specific genes (DNA or nucleic acid vaccination (NAV)) elicits robust humoral and cell-mediated immune responses. The mechanisms involved in T cell activation by NAV are incompletely characterized. We have examined the costimulatory requirements of NAV. CD28-deficient mice did not mount Ab or CTL responses following i.m. immunization with eukaryotic expression plasmids encoding the bacterial gene beta-galactosidase (beta gal). Because these mice retained their ability to up-regulate the CTLA4 receptor (a negative regulator of T cell activation), we examined CTLA4's role in the response of wild-type BALB/c mice to NAV. Intact anti-CTLA4 mAb but not Fab fragments suppressed the primary humoral response to pCIA/beta gal without affecting recall responses, indicating CTLA4 activation inhibited Ab production but not T cell priming. Blockade of the ligands for CD28 and CTLA4, CD80 (B7-1) and CD86 (B7-2), revealed distinct and nonoverlapping function. Blockade of CD80 at initial immunization completely abrogated primary and secondary Ab responses, whereas blockade of CD86 suppressed primary but not secondary responses. Simultaneous blockade of CD80 + CD86 was less effective at suppressing Ab responses than either alone. Enhancement of costimulation via coinjection of B7-expressing plasmids augmented CTL responses but not Ab responses, and without evidence of Th1 to Th2 skewing. These findings suggest complex and distinct roles for CD28, CTLA4, CD80, and CD86 in T cell costimulation following nucleic acid vaccination.

Decreased dependence of myelin basic protein-reactive T cells on CD28-mediated costimulation in multiple sclerosis patients. A marker of activated/memory T cells

Although multiple sclerosis (MS) patients and healthy individuals have similar frequencies of myelin basic protein (MBP)-specific T cells, the activation state of these cells has not been well characterized. Therefore, we investigated the dependence of MBP-reactive T cells on CD28-mediated costimulation in MS patients, healthy controls, and stroke patients. MBP-reactive T cells from healthy controls and stroke patients failed to proliferate efficiently when costimulation was blocked using anti-CD28, consistent with a naive T cell response. In contrast, MBP-specific T cell proliferation was not inhibited, or was only partially inhibited when CD28-mediated costimulation was blocked in MS patients. Blockade of CD28 failed to inhibit tetanus toxoid-specific T cell proliferation in both the controls and MS patients, demonstrating that memory cells are not dependent on CD28-mediated costimulation. Limiting dilution analysis indicated that the frequency of MBP-reactive T cells was significantly decreased in healthy controls compared with MS patients when CD28-mediated costimulation was blocked. These data suggest that MBP-reactive T cells are more likely to have been activated in vivo and/or differentiated into memory T cells in MS patients compared with controls, indicating that these cells may be participating in the pathogenesis of MS.

Effects of blocking B7-1 and B7-2 interactions during a type 2 in vivo immune response

The costimulatory signal provided to T cells through CD28/CTLA-4 interactions is required for in vivo Th cell effector function associated with cytokine production. However, it is uncertain whether the two well-characterized ligands for these molecules, B7-1 and B7-2, differentially influence the consequent development of a type 1 or a type 2 primary response. We have examined the in vivo effects of blocking B7-1 and/or B7-2 ligand interactions on the type 2 mucosal immune response that follows oral infection of mice with the nematode parasite, Heligmosomoides polygyrus. Administration of the combination of anti-B7-1 and anti-B7-2 Abs inhibited H. polygyrus-induced increases in serum IgG1 and IgE levels, the expansion of mesenteric lymph node (MLN) germinal centers, in situ CD4+ T cell expansion, elevated blood eosinophils, and increased intestinal mucosal mast cells. Similarly, both Abs blocked MLN and Peyer's patch cytokine gene expression and elevations in MLN T cell-derived IL-4 protein secretion. However, in the same experiments, administration of either anti-B7-1 or anti-B7-2 Abs alone had little effect on any of these parameters. T cell and B cell activation was also blocked by the combination of anti-B7-2 and a B7-1-specific mutant Y100F CTLA-4Ig construct. These results suggest that to the extent that anti-B7-1 and anti-B7-2 mAbs block B7 interactions, either B7-1 or B7-2 ligand interactions can provide the required costimulatory signals that lead to T cell effector function during a type 2 in vivo immune response.

Effects of blocking B7-1 and B7-2 interactions during a type 2 in vivo immune response

The costimulatory signal provided to T cells through CD28/CTLA-4 interactions is required for in vivo Th cell effector function associated with cytokine production. However, it is uncertain whether the two well-characterized ligands for these molecules, B7-1 and B7-2, differentially influence the consequent development of a type 1 or a type 2 primary response. We have examined the in vivo effects of blocking B7-1 and/or B7-2 ligand interactions on the type 2 mucosal immune response that follows oral infection of mice with the nematode parasite, Heligmosomoides polygyrus. Administration of the combination of anti-B7-1 and anti-B7-2 Abs inhibited H. polygyrus-induced increases in serum IgG1 and IgE levels, the expansion of mesenteric lymph node (MLN) germinal centers, in situ CD4+ T cell expansion, elevated blood eosinophils, and increased intestinal mucosal mast cells. Similarly, both Abs blocked MLN and Peyer's patch cytokine gene expression and elevations in MLN T cell-derived IL-4 protein secretion. However, in the same experiments, administration of either anti-B7-1 or anti-B7-2 Abs alone had little effect on any of these parameters. T cell and B cell activation was also blocked by the combination of anti-B7-2 and a B7-1-specific mutant Y100F CTLA-4Ig construct. These results suggest that to the extent that anti-B7-1 and anti-B7-2 mAbs block B7 interactions, either B7-1 or B7-2 ligand interactions can provide the required costimulatory signals that lead to T cell effector function during a type 2 in vivo immune response.

Mitogenic stimulation of T cells reveals differing contributions for B7-1 (CD80) and B7-2 (CD86) costimulation

The requirement of accessory cells for concanavalin A (Con A) activation of T cells suggests delivery of a separate costimulatory signal. However, the costimulatory pathways involved have not been identified. These studies assess the role of CD28-B7-mediated costimulation during T-cell activation by Con A. The B7-1/B7-2 binding protein CTLA4-Ig inhibited the proliferative response of primary lymph node cells to either Con A or soluble anti-CD3 mAb. This suppression was dose dependent and could be reversed by CD28 cross-linking. CTLA4-Ig also completely suppressed induction of interleukin-2 (IL-2) mRNA by Con A. CTLA4-Ig-mediated suppression was not due to blockade of the Con A 'receptor(s)' or of the primary activation signal (as measured by the intracellular calcium response). Although both B7-1 and B7-2 were up-regulated following Con A activation, each played a different role in proliferation and cytokine production. Individually, anti-B7-2 Fab partially inhibited the Con A response whereas anti-B7-1 Fab had no effect. However, the combination of anti-B7-1 and anti-B7-2 Fab completely suppressed proliferation and IL-2 production. Therefore, while a part of the Con A response requires B7-2, the remainder of the response can utilize either B7-1 or B7-2. Together, these results demonstrate that Con A activation of T cells requires the delivery of a separate costimulatory signal that is mediated almost entirely by the B7 receptors.

CTLA-4 blockade enhances clinical disease and cytokine production during experimental allergic encephalomyelitis

The B7 family of cell surface molecules expressed on APC provides accessory signals to T cells via either CD28 or CTLA-4. However, while CD28 transduces a costimulatory signal that is required for an optimal immune response, CTLA-4 transmits a negative signal. These studies use an anti-CTLA-4 mAb to directly address the role of this T cell surface molecule in experimental allergic encephalomyelitis (EAE). CTLA-4 regulation of disease was assessed during initial immune cell interactions and during the effector stage of the encephalitogenic immune response. The effects of anti-CTLA-4 treatment were schedule dependent. CTLA-4 blockade during the onset of clinical symptoms markedly exacerbated disease, enhancing mortality. Disease exacerbation was associated with enhanced production of the encephalitogenic cytokines TNF-alpha, IFN-gamma and IL-2. Hence, CTLA-4 regulates the intensity of the autoimmune response in EAE, attenuating inflammatory cytokine production and clinical disease manifestations.

CTLA-4 blockade enhances clinical disease and cytokine production during experimental allergic encephalomyelitis

The B7 family of cell surface molecules expressed on APC provides accessory signals to T cells via either CD28 or CTLA-4. However, while CD28 transduces a costimulatory signal that is required for an optimal immune response, CTLA-4 transmits a negative signal. These studies use an anti-CTLA-4 mAb to directly address the role of this T cell surface molecule in experimental allergic encephalomyelitis (EAE). CTLA-4 regulation of disease was assessed during initial immune cell interactions and during the effector stage of the encephalitogenic immune response. The effects of anti-CTLA-4 treatment were schedule dependent. CTLA-4 blockade during the onset of clinical symptoms markedly exacerbated disease, enhancing mortality. Disease exacerbation was associated with enhanced production of the encephalitogenic cytokines TNF-alpha, IFN-gamma and IL-2. Hence, CTLA-4 regulates the intensity of the autoimmune response in EAE, attenuating inflammatory cytokine production and clinical disease manifestations.

Opposing effects of CTLA4-Ig and anti-CD80 (B7-1) plus anti-CD86 (B7-2) on experimental allergic encephalomyelitis

The roles of the B7 receptors, CD80 and CD86, during actively induced experimental allergic encephalomyelitis were examined with specific monoclonal antibodies and CTLA4-Ig. Injection of CTLA4-Ig on day 2 post-immunization resulted in decreased incidence and severity of resultant disease. Anti-CD80 injection on day 2 blocked development of the first disease episode. Subsequent relapses were unaffected. In contrast, injection of anti-CD86 alone had no effect. Surprisingly, combined anti-CD80 + anti-CD86 monoclonal antibody injection on day 2 resulted in marked exacerbation of disease. Examination of cytokine production in the draining lymph node cells demonstrated a reduction in both interferon (IFN)-gamma and interleukin (IL)-2 producing cells, but a dramatic increase in tumor necrosis factor (TNF)-alpha secretion in animals receiving both monoclonal antibodies. These results suggest distinct roles for CD80 and CD86 in the initiation of EAE, resulting in the diverse clinical outcomes observed in this model of EAE.

Distinct roles for B7-1 (CD-80) and B7-2 (CD-86) in the initiation of experimental allergic encephalomyelitis

The activation and differentiation of T cells require both antigen/MHC recognition and costimulatory signals. The present studies examined the role of B7-1 (CD80) and B7-2 (CD86) costimulation in the prototypic autoimmune disorder, experimental allergic encephalomyelitis (EAE). In adoptively transferred EAE, in vitro activation of myelin basic protein (MBP)-specific lymph node cells was inhibited by the combination of anti-CD80 plus anti-CD86, but not individually. However, in actively induced disease, one injection of anti-CD80 significantly reduced disease, while anti-CD86 exacerbated disease. Interestingly, one injection of CTLA-4Ig suppressed disease, while multiple injections resulted in enhanced disease. Thus, the costimulation provided by B7-1 molecules appears to be important for the development of encephalitogenic T cells. The enhanced disease caused by multiple injections of CTLA-4Ig or a single injection of anti-CD86 suggests an inhibitory function for CD86 interaction with its counterreceptors CD28 and CTLA-4 in EAE. Alternatively, these results are consistent with an essential timing requirement for the coordinated interaction of B7 and CD28 family receptors, and that disruption of this critical timing can have opposing results on the outcome of an immune response.

B7-mediated costimulation can either provoke or prevent clinical manifestations of experimental allergic encephalomyelitis

T-cell activation requires signalling provided by ligation of the T-cell receptor for antigen (TCR) and a second antigen (Ag) nonspecific signal, known as costimulation. The B7 receptors, CD80 (B7-1) and CD86 (B7-2), on the Ag-presenting cell (APC), interact with T-cell CD28 or CTLA-4 to deliver a costimulatory signal, which is particularly important for Th1 activation. Experimental allergic encephalomyelitis (EAE) is an autoimmune disorder, induced by Th1 cells directed against myelin antigens that provides an in vivo model for studying the role of B7-mediated costimulation in the induction of a pathological immune response. Using a soluble fusion protein ligand for the B7 receptors, as well as specific monoclonal antibodies specific for either CD80 or CD86, it has been demonstrated that B7 costimulation plays a prominent role in determining clinical disease outcome in EAE. Here we review recent data indicating that a paradoxical exacerbation of disease as well as the expected amelioration of disease can occur with costimulatory receptor blockade.

Role of B7:CD28/CTLA-4 in the induction of chronic relapsing experimental allergic encephalomyelitis

T cell activation requires both Ag/MHC recognition and costimulatory signals. The present studies were designed to test whether the loss of tolerance to myelin basic protein (MBP) requires costimulation by members of the B7 receptor family. CTLA-4Ig, a fusion protein ligand for B7-1 and B7-2, was used to assess the role of B7-mediated costimulation in chronic relapsing experimental allergic encephalomyelitis (EAE) induced by the transfer of MBP specific T cell lines. In adoptively transferred EAE, administering CTLA-4Ig to donor mice or during in vitro activation of MBP specific-T cells resulted in diminution of clinical disease. The presence of CTLA-4Ig during both the immunization and in vitro activation stages was most effective in preventing clinical signs of disease. This diminution in clinical disease was paralleled by a decreased proliferative response and reduced production of IL-2 and IL-4, but not IFN-gamma, after antigenic stimulation of encephalitogenic T cells in vitro. In contrast, CTLA-4Ig treatment of recipient animals after the transfer of MBP-activated T cells affected neither disease course nor severity. These results indicate that additional costimulatory pathways may be involved in established EAE, or that some cells are independent of costimulation or, alternatively, that CTLA-4Ig does not enter brain parenchyma in therapeutic concentrations. Thus, we conclude that costimulation provided by B7 molecules plays a major role in the development of encephalitogenic T cells and in the establishment of chronic relapsing EAE, a prototypic CD4+ T cell-mediated autoimmune disease.

Role of B7:CD28/CTLA-4 in the induction of chronic relapsing experimental allergic encephalomyelitis

T cell activation requires both Ag/MHC recognition and costimulatory signals. The present studies were designed to test whether the loss of tolerance to myelin basic protein (MBP) requires costimulation by members of the B7 receptor family. CTLA-4Ig, a fusion protein ligand for B7-1 and B7-2, was used to assess the role of B7-mediated costimulation in chronic relapsing experimental allergic encephalomyelitis (EAE) induced by the transfer of MBP specific T cell lines. In adoptively transferred EAE, administering CTLA-4Ig to donor mice or during in vitro activation of MBP specific-T cells resulted in diminution of clinical disease. The presence of CTLA-4Ig during both the immunization and in vitro activation stages was most effective in preventing clinical signs of disease. This diminution in clinical disease was paralleled by a decreased proliferative response and reduced production of IL-2 and IL-4, but not IFN-gamma, after antigenic stimulation of encephalitogenic T cells in vitro. In contrast, CTLA-4Ig treatment of recipient animals after the transfer of MBP-activated T cells affected neither disease course nor severity. These results indicate that additional costimulatory pathways may be involved in established EAE, or that some cells are independent of costimulation or, alternatively, that CTLA-4Ig does not enter brain parenchyma in therapeutic concentrations. Thus, we conclude that costimulation provided by B7 molecules plays a major role in the development of encephalitogenic T cells and in the establishment of chronic relapsing EAE, a prototypic CD4+ T cell-mediated autoimmune disease.

The regulation of lymphoid function during schistosomiasis: influence of T-cell-derived suppressor molecules on antigen recognition, cellular activation and granuloma formation

We have previously studied a T-cell derived soluble suppressor factor (TseF) which regulates immunopathology in schistosomiasis. The current studies address the mechanism whereby TseF suppresses the functional immune response in murine schistosomiasis. We assessed three stages of the immune response: (1) initial antigenic recognition using the criteria of antigen-mediated cell division or blast transformation (AMBT); (2) intracellular differentiation utilizing criteria of glutathione (GSH) and ornithine decarboxylase (ODC) production; and (3) efferent function utilizing criteria of in vitro granuloma formation (IVGF). We studied these three criteria of immune reactivity during the course of schistosomiasis. Lymphoid cells from acutely infected animals demonstrated high levels of antigen-mediated cell division and in vitro granuloma formation; ODC and GSH levels were low. Cells obtained from chronically infected animals demonstrated lower antigen-mediated cell division and granuloma formation; however, ODC and GHS levels were much higher, indicating that cells obtained from chronically infected animals are in a non-reactive state of increased activation. TseF strongly increased GSH and ODC levels in lymphocytes obtained from acutely infected animals, and this effect was augmented by the presence of antigen. However, TseF had minimal effects on initial antigenic recognition, and profoundly suppressed the effector function. The relationship between the effects of TseF on antigen recognition and function was regulated at the clonal level. TseF function required the generation of GSH. Since TseF is produced in chronic disease under conditions of decreased immunological reactivity, the alterations of GSH and ODC activity, induced by TseF, may be responsible for the regulation of immunopathology.

The regulation of resistance to Schistosoma mansoni by a soluble alpha/beta TCR analog, produced by a cloned T cell hybridoma

Immunity to Schistosoma mansoni is regulated by an auto-anti-idiotypic network. The T cells in this network interact through soluble regulatory factors. These studies describe a soluble suppressor-inducer factor (TsiF) derived from TCR+ suppressor-inducer clone Q37. Q37 is the fusion product of CD4+ T cells derived from S. mansoni-infected mice and TCR-, BW1100 thymoma cells. [35S]Methionine biosynthetically labeled TsiF was immunoprecipitated with mAb H57-597 (anti-pan alpha/beta TCR) and adsorbed with protein G-agarose. The eluted 72-kDa TCR analog was reduced with dithiothreitol. Components of 32 and 44 kDa were found on SDS-PAGE. These components were analogous to the alpha and beta chains of the TCR, binding antigen, or expressing V beta determinants, respectively. TsiF suppressed delayed-type hypersensitivity to S. mansoni antigens in a genetically and antigenically restricted manner. TsiF totally abrogated protective immune response against S. mansoni. These soluble TCR analogs may idiotypically regulate the resistance to S. mansoni. Q37 is an appropriate source of a suppressor TCR analog for the molecular analyses of this idiotypic regulation.

Immune response to Schistosoma mansoni infections in inbred rats. VII. Resistance is contingent on OX-8(+)-regulated high affinity IL-2 receptor-bearing W3/25+ lymphocytes but not on IL-4-dependent cells

These studies assess the roles of subpopulations of T lymphocytes in resistance to Schistosoma mansoni. CDF rats were depleted of the T cell subpopulation bearing the high affinity IL-2R by in vivo treatment with ART18+ mAb or of soluble IL-4 by treatment with 11B11 mAb. The development of parasites, the expression of resistance after sensitization, and the intensity of delayed type hypersensitivity (DTH), Ag-mediated blast transformation (AMBT), IgG2a, passive cutaneous anaphylaxis, and IgE-mediated antibody-dependent cell-mediated cytotoxicity responses against S. mansoni or control Ag were ascertained. Isolated T cell subpopulations were assessed in vivo and in vitro for effects upon the protective Ir. Depletion with ART18 mAb suppressed the development of W3/25+ helper-inducer cells and resulted in the initial survival of more worms, decreased resistance to challenge after initial sensitization, decreased IgG2a and IgE antibody, AMBT, and DTH reactivity against schistosome Ag. Depletion with ART18 did not prevent the development of OX8+ (T suppressor) cells. Depletion with 11B11 mAb led to insignificant changes in initial parasite survival and resistance to challenge; had no effect on IgG2a antibody, AMBT, or DTH; but profoundly suppressed the IgE responses against the parasite. Protective immunity to S. mansoni in rats is dependent upon IL-2R-bearing T lymphocytes and regulated by OX8+ cells but not absolutely contingent upon IL-4 or the IgE response.

Immune response to Schistosoma mansoni infections in inbred rats. VII. Resistance is contingent on OX-8(+)-regulated high affinity IL-2 receptor-bearing W3/25+ lymphocytes but not on IL-4-dependent cells

These studies assess the roles of subpopulations of T lymphocytes in resistance to Schistosoma mansoni. CDF rats were depleted of the T cell subpopulation bearing the high affinity IL-2R by in vivo treatment with ART18+ mAb or of soluble IL-4 by treatment with 11B11 mAb. The development of parasites, the expression of resistance after sensitization, and the intensity of delayed type hypersensitivity (DTH), Ag-mediated blast transformation (AMBT), IgG2a, passive cutaneous anaphylaxis, and IgE-mediated antibody-dependent cell-mediated cytotoxicity responses against S. mansoni or control Ag were ascertained. Isolated T cell subpopulations were assessed in vivo and in vitro for effects upon the protective Ir. Depletion with ART18 mAb suppressed the development of W3/25+ helper-inducer cells and resulted in the initial survival of more worms, decreased resistance to challenge after initial sensitization, decreased IgG2a and IgE antibody, AMBT, and DTH reactivity against schistosome Ag. Depletion with ART18 did not prevent the development of OX8+ (T suppressor) cells. Depletion with 11B11 mAb led to insignificant changes in initial parasite survival and resistance to challenge; had no effect on IgG2a antibody, AMBT, or DTH; but profoundly suppressed the IgE responses against the parasite. Protective immunity to S. mansoni in rats is dependent upon IL-2R-bearing T lymphocytes and regulated by OX8+ cells but not absolutely contingent upon IL-4 or the IgE response.

Resistance in murine schistosomiasis is contingent on activated IL-2 receptor-bearing L3T4+ lymphocytes, negatively regulated by Lyt-2+ cells, and uninfluenced by the presence of IL-4

These studies assess the roles of subpopulations of T lymphocytes in inducing and modulating resistance to Schistosoma mansoni. C57BL/6 mice were depleted in vivo of L3T4+, Lyt-1+, Lyt-2+, IL-2R+ cells, or IL-4 by administration of appropriate mAb. Resistance and various correlative parameters of the immune response were studied in normal, depleted, and congenitally athymic mice. Depletion of T lymphocytes by anti-L3T4 or anti-IL-2R mAb reduced the development and expression of resistance, IgG2a and IgE antibody formation, and delayed type hypersensitivity reactivity against schistosome Ag. Depletion with anti-IL-4 antibody led to profound suppression of IgE-eosinophil-mediated antibody-dependent cell-mediated cytotoxicity and passive cutaneous anaphylaxis responses against the parasite and no effect on IgG2a antibody, Ag-mediated blast transformation, or resistance. Depletion of Lyt-2+ cells produced augmented development and expression of resistance and an increase in the immunological parameters of anti-schistosome reactivity. These studies suggest that protective immunity to S. mansoni in mice, induced by irradiated cercariae, is dependent on L3T4+, IL-2R+ lymphocytes and negatively regulated by Lyt-2+ cells. IL-4 does not appear to be essential for the development of resistance but is essential for the IgE response to the parasite.

Resistance in murine schistosomiasis is contingent on activated IL-2 receptor-bearing L3T4+ lymphocytes, negatively regulated by Lyt-2+ cells, and uninfluenced by the presence of IL-4

These studies assess the roles of subpopulations of T lymphocytes in inducing and modulating resistance to Schistosoma mansoni. C57BL/6 mice were depleted in vivo of L3T4+, Lyt-1+, Lyt-2+, IL-2R+ cells, or IL-4 by administration of appropriate mAb. Resistance and various correlative parameters of the immune response were studied in normal, depleted, and congenitally athymic mice. Depletion of T lymphocytes by anti-L3T4 or anti-IL-2R mAb reduced the development and expression of resistance, IgG2a and IgE antibody formation, and delayed type hypersensitivity reactivity against schistosome Ag. Depletion with anti-IL-4 antibody led to profound suppression of IgE-eosinophil-mediated antibody-dependent cell-mediated cytotoxicity and passive cutaneous anaphylaxis responses against the parasite and no effect on IgG2a antibody, Ag-mediated blast transformation, or resistance. Depletion of Lyt-2+ cells produced augmented development and expression of resistance and an increase in the immunological parameters of anti-schistosome reactivity. These studies suggest that protective immunity to S. mansoni in mice, induced by irradiated cercariae, is dependent on L3T4+, IL-2R+ lymphocytes and negatively regulated by Lyt-2+ cells. IL-4 does not appear to be essential for the development of resistance but is essential for the IgE response to the parasite.

The regulation of resistance to Schistosoma mansoni by auto-anti-idiotypic immunity. III. An analysis of effects on epitopic recognition, idiotypic expression, and anti-idiotypic reactivity at the clonal level

Auto-anti-idiotypic mechanisms can regulate the protective immune response against Schistosoma mansoni. Anti-idiotypic responses were stimulated by immunization of mice either with nonspecifically induced lymphoblasts, produced with Con A, or with Ag-induced lymphoblasts bearing specific idiotypic receptors. The effect of the induced anti-idiotypic response upon clonotypic cellular reactivity was assessed in vitro through the suppression of antigen-mediated blast transformation by cloned T cells and in vivo by suppression of resistance to S. mansoni and delayed-type hypersensitivity responses against specific Ag. Differential regulation of humoral immune responses was studied at the levels of specific epitopic recognition, the expression of specific Id, and the production of anti-idiotypic responses directed against mAb bearing specific Id. Anti-idiotypic sensitization resulted in variable (10 to 90%) suppression of the immune response to discrete antigenic epitopes, the expression of specific idiotypic phenotypes, and anti-idiotypic, antiparatopic responses against T cell clonotypes and antibody idiotypic phenotypes. In vitro admixture and in vivo challenge studies resulted in consonant differential suppression. Thus idiotypic regulation can mold the fine specificities of the protective immune response to S. mansoni at the clonal level and may provide an approach to optimize the expression and assessment of resistance.

The regulation of resistance to Schistosoma mansoni by auto-anti-idiotypic immunity. III. An analysis of effects on epitopic recognition, idiotypic expression, and anti-idiotypic reactivity at the clonal level

Auto-anti-idiotypic mechanisms can regulate the protective immune response against Schistosoma mansoni. Anti-idiotypic responses were stimulated by immunization of mice either with nonspecifically induced lymphoblasts, produced with Con A, or with Ag-induced lymphoblasts bearing specific idiotypic receptors. The effect of the induced anti-idiotypic response upon clonotypic cellular reactivity was assessed in vitro through the suppression of antigen-mediated blast transformation by cloned T cells and in vivo by suppression of resistance to S. mansoni and delayed-type hypersensitivity responses against specific Ag. Differential regulation of humoral immune responses was studied at the levels of specific epitopic recognition, the expression of specific Id, and the production of anti-idiotypic responses directed against mAb bearing specific Id. Anti-idiotypic sensitization resulted in variable (10 to 90%) suppression of the immune response to discrete antigenic epitopes, the expression of specific idiotypic phenotypes, and anti-idiotypic, antiparatopic responses against T cell clonotypes and antibody idiotypic phenotypes. In vitro admixture and in vivo challenge studies resulted in consonant differential suppression. Thus idiotypic regulation can mold the fine specificities of the protective immune response to S. mansoni at the clonal level and may provide an approach to optimize the expression and assessment of resistance.

The regulation of resistance to Schistosoma mansoni by auto-anti-idiotypic immunity. II. Global qualitative and quantitative regulation

These studies explore the suppression of resistance to schistosomiasis mansoni through interactions of autologous immune functions derived from an induced anti-idiotypic response. This anti-clonotypic response is induced by immunization with syngeneic L3T4+ receptor-bearing lymphoblasts and for the sake of description is termed "auto-anti-idiotypic". It is antigenically restricted and cannot be induced by allogeneic cells. Anti-idiotypic immunization profoundly suppressed the development of protective immunity after exposure to irradiated cercariae and altered a wide variety of functional humoral and cellular immune responses to the parasite. In addition to quantitative suppressive effects, the anti-idiotypic network also regulated qualitative aspects of the immune response by increasing the heterogeneity and reducing the functional binding avidity of antibody for Ag. These effects also were reflected in analogous alterations in cellular reactivity, using the criteria of the Ag mediated blast transformation and delayed type hypersensitivity. Thus idiotypic regulation can mold the specificity and sensitivity of the immune response to Schistosoma mansoni by affecting quantitative and qualitative responses. Manipulation of idiotypic recognition provides an approach to optimize the expression of protective resistance to schistosomiasis.

The regulation of resistance to Schistosoma mansoni by auto-anti-idiotypic immunity. II. Global qualitative and quantitative regulation

These studies explore the suppression of resistance to schistosomiasis mansoni through interactions of autologous immune functions derived from an induced anti-idiotypic response. This anti-clonotypic response is induced by immunization with syngeneic L3T4+ receptor-bearing lymphoblasts and for the sake of description is termed "auto-anti-idiotypic". It is antigenically restricted and cannot be induced by allogeneic cells. Anti-idiotypic immunization profoundly suppressed the development of protective immunity after exposure to irradiated cercariae and altered a wide variety of functional humoral and cellular immune responses to the parasite. In addition to quantitative suppressive effects, the anti-idiotypic network also regulated qualitative aspects of the immune response by increasing the heterogeneity and reducing the functional binding avidity of antibody for Ag. These effects also were reflected in analogous alterations in cellular reactivity, using the criteria of the Ag mediated blast transformation and delayed type hypersensitivity. Thus idiotypic regulation can mold the specificity and sensitivity of the immune response to Schistosoma mansoni by affecting quantitative and qualitative responses. Manipulation of idiotypic recognition provides an approach to optimize the expression of protective resistance to schistosomiasis.

The molecular basis of granuloma formation in schistosomiasis. IV. T cell-derived suppressor-inducer and suppressor-effector factor reactivities are regulated by a TCR beta chain analog

In Schistosomiasis mansoni, granulomatous modulation is mediated by antigenically and genetically restricted T suppressor-inducer and suppressor-effector cells and the soluble factors which they produce. The T suppressor-inducer factor (TsiF) is produced by an L3T4+, 14-30+ T cell. TsiF does not suppress directly, but induces the production of T-cell-derived suppressor-effector factor (TseF). TseF directly suppresses granuloma formation in vitro and in vivo. This study describes the molecular properties of TsiF. The factor is a nonimmunoglobulin heterodimer which can be separated into two component chains by dithiothreitol (DTT) reduction. The alpha chain imparts antigenic specificity and bears both the AgR and the epitope recognized by mAb 14-30 which characterizes T cells and factors of the Tsi phenotype. The beta chain imparts genetic restriction and bears both the I-J phenotypic marker and a T-cell receptor for Ag (TCR) V beta 8 determinant. These two chains can complement each other in vitro to reconstitute functional activity. The beta chain also determines the functional activity of T cell-derived suppressor factor (TsF). A beta chain, derived from TsiF, can complement the alpha chain derived from TsiF or TseF to reconstitute TsiF, but not TseF functional activity. Conversely the beta chain of TseF can reconstitute only TseF activity. These findings suggest that TsiF bears structural homologies to the TCR borne by Tsi cells and that the beta chain mediates the mode of functional interactions between TsFs and their target cells.

The molecular basis of granuloma formation in schistosomiasis. III. In vivo effects of a T cell-derived suppressor effector factor and IL-2 on granuloma formation

Granuloma formation in schistosomiasis is characterized by the formation of a large lesion in acutely infected animals which subsequently decreases in size as disease progresses into the chronic phase. These in vivo studies confirm and extend previous in vitro observations on the regulation of granulomatous hypersensitivity by a T cell-derived suppressor effector factor (TseF). TseF regulation of granuloma formation in vivo and DTH are shown to be both antigenically and genetically restricted. This suppression is accompanied by a suppression of the ability of cells derived from TseF recipients to function in an in vitro assay of granuloma formation. Antigenic recognition, defined by cellular proliferation in response to antigenic stimulation, is uneffected by TseF administration. Administration of IL-2 reduces TseF function in acutely infected mice and results in increased liver granuloma size. However, the ability of cells derived from these animals to form granulomas in vitro is uneffected. Cells obtained from chronically infected IL-2 recipients do not produce TseF in vitro and granuloma size is increased in these animals. Animals receiving both IL-2 and TseF continue to demonstrate decreased granuloma formation, indicating that IL-2 does not effect the ability of preformed TseF to function. These observations suggest that TseF modulates granuloma formation in vivo and may interact with IL-2 in a dynamic process which determines the intensity of the granulomatous response.

The molecular basis of granuloma formation in schistosomiasis. III. In vivo effects of a T cell-derived suppressor effector factor and IL-2 on granuloma formation

Granuloma formation in schistosomiasis is characterized by the formation of a large lesion in acutely infected animals which subsequently decreases in size as disease progresses into the chronic phase. These in vivo studies confirm and extend previous in vitro observations on the regulation of granulomatous hypersensitivity by a T cell-derived suppressor effector factor (TseF). TseF regulation of granuloma formation in vivo and DTH are shown to be both antigenically and genetically restricted. This suppression is accompanied by a suppression of the ability of cells derived from TseF recipients to function in an in vitro assay of granuloma formation. Antigenic recognition, defined by cellular proliferation in response to antigenic stimulation, is uneffected by TseF administration. Administration of IL-2 reduces TseF function in acutely infected mice and results in increased liver granuloma size. However, the ability of cells derived from these animals to form granulomas in vitro is uneffected. Cells obtained from chronically infected IL-2 recipients do not produce TseF in vitro and granuloma size is increased in these animals. Animals receiving both IL-2 and TseF continue to demonstrate decreased granuloma formation, indicating that IL-2 does not effect the ability of preformed TseF to function. These observations suggest that TseF modulates granuloma formation in vivo and may interact with IL-2 in a dynamic process which determines the intensity of the granulomatous response.

The molecular basis of granuloma formation in schistosomiasis. II. Analogies of a T cell-derived suppressor effector factor to the T cell receptor

During Schistosoma mansoni infection, Ts cells regulate granulomatous modulation via antigenically and genetically restricted suppressor inducer and suppressor effector factors. The T suppressor effector factor (TseF) directly suppresses granuloma formation both in vitro and in vivo. In this study, we probe the molecular basis of these TseF properties. Using techniques of heterodimeric chain reduction with DTT and in vitro functional complementation, chimeric molecules were constructed. By analyzing genetic restrictions, antigenic specificities, and phenotypic markers, the contributions of the component chains to 72 kDa TseF reactivity were determined. One chain bore an Ag receptor and imparted antigenic specificity. The other chain bore an IJ determinant, a TCR beta-chain allotypic determinant, a suppressor effector phenotypic determinant, and imparted functional genetic restriction. Functional activity required covalent, probably sulfhydryl mediated, linkage as succinylation prevented the separated component chains from reconstituting functional activity. Additional studies demonstrated that anti-serum directed against either the T cell receptor or the T3 epsilon-chain could abrogate functional activity. However, TseF bore no T3 epsilon-chain phenotypic marker per se suggesting that TseF effects T lymphocytes via transmembrane signal transduction. These studies suggest that a regulatory network is operative in granuloma modulation. This regulatory network is mediated by a soluble TseF that bears significant structural homologies to the classic TCR.

The molecular basis of granuloma formation in schistosomiasis. II. Analogies of a T cell-derived suppressor effector factor to the T cell receptor

During Schistosoma mansoni infection, Ts cells regulate granulomatous modulation via antigenically and genetically restricted suppressor inducer and suppressor effector factors. The T suppressor effector factor (TseF) directly suppresses granuloma formation both in vitro and in vivo. In this study, we probe the molecular basis of these TseF properties. Using techniques of heterodimeric chain reduction with DTT and in vitro functional complementation, chimeric molecules were constructed. By analyzing genetic restrictions, antigenic specificities, and phenotypic markers, the contributions of the component chains to 72 kDa TseF reactivity were determined. One chain bore an Ag receptor and imparted antigenic specificity. The other chain bore an IJ determinant, a TCR beta-chain allotypic determinant, a suppressor effector phenotypic determinant, and imparted functional genetic restriction. Functional activity required covalent, probably sulfhydryl mediated, linkage as succinylation prevented the separated component chains from reconstituting functional activity. Additional studies demonstrated that anti-serum directed against either the T cell receptor or the T3 epsilon-chain could abrogate functional activity. However, TseF bore no T3 epsilon-chain phenotypic marker per se suggesting that TseF effects T lymphocytes via transmembrane signal transduction. These studies suggest that a regulatory network is operative in granuloma modulation. This regulatory network is mediated by a soluble TseF that bears significant structural homologies to the classic TCR.

The regulation of resistance to Schistosoma mansoni by auto-anti-idiotypic immunity

These studies explore auto-anti-idiotypic mechanisms as potential regulators of the protective immune response against Schistosoma mansoni. Anti-idiotypic responses were stimulated by immunization of mice with lymphoblasts, bearing specific idiotypic receptors. These receptors were produced in vitro by stimulation of Ag-reactive T cells by soluble cercarial immunogen, keyhole limpet hemocyanin, or Con A. The animals were then exposed to irradiated cercariae, keyhole limpet hemocyanin, or SRBC. The results indicate that the soluble cercarial immunogen lymphoblast recipient mice demonstrated reduction in a number of parameters of their immune response to schistosome Ag, including resistance to challenge by parasites. These changes were immunologically specific. Anti-idiotypic antibodies and anti-clonotypic T cell reactivity was demonstrated in the lymphoblast immunized mice. The suppression of reactivity in LBM was mediated by Lyt-1-, L3T-4-, and Lyt-2+ lymphocytes. These studies suggest that idiotypically dependent pathways might be important for the regulation of resistance to schistosomiasis.

The molecular basis of granuloma formation in schistosomiasis. I. A T cell-derived suppressor effector factor

These studies define certain T cell-dependent regulatory factors that modulate granulomatous hypersensitivity in Schistosoma mansoni. Lyt-2+ and IJ+ T cells produce a suppressor effector factor (TseF) that bears both an IJ determinant and an antigenically specific receptor. TseF suppresses in vitro and in vivo granulomatous hypersensitivity and demonstrates both antigenic and genetic restriction. This factor binds to the mAb 14-12 but not 14-30 suggesting that it also bears a specific suppressor effector phenotypic marker. Factor production is abrogated by the addition of exogenous IL-2; however, the activity of preformed TseF is not affected by IL-2. Initial characterization studies have suggested that TseF is a non-Ig protein and that it is composed of two chains that can be separated by dithiothreitol reduction. These chains can complement each other by in vitro reconstitution of reactivity. One chain bears the IJ phenotype. The other chain bears the Ag-R. Thus it would appear that this TseF bears strong structural homologies to those previously ascribed to T cell-R. These studies provide preliminary information on the molecules that are responsible for the specific modulation of granulomatous hypersensitivity in schistosomiasis.

The molecular basis of granuloma formation in schistosomiasis. I. A T cell-derived suppressor effector factor

These studies define certain T cell-dependent regulatory factors that modulate granulomatous hypersensitivity in Schistosoma mansoni. Lyt-2+ and IJ+ T cells produce a suppressor effector factor (TseF) that bears both an IJ determinant and an antigenically specific receptor. TseF suppresses in vitro and in vivo granulomatous hypersensitivity and demonstrates both antigenic and genetic restriction. This factor binds to the mAb 14-12 but not 14-30 suggesting that it also bears a specific suppressor effector phenotypic marker. Factor production is abrogated by the addition of exogenous IL-2; however, the activity of preformed TseF is not affected by IL-2. Initial characterization studies have suggested that TseF is a non-Ig protein and that it is composed of two chains that can be separated by dithiothreitol reduction. These chains can complement each other by in vitro reconstitution of reactivity. One chain bears the IJ phenotype. The other chain bears the Ag-R. Thus it would appear that this TseF bears strong structural homologies to those previously ascribed to T cell-R. These studies provide preliminary information on the molecules that are responsible for the specific modulation of granulomatous hypersensitivity in schistosomiasis.

The regulation of resistance to Schistosoma mansoni by auto-anti-idiotypic immunity

These studies explore auto-anti-idiotypic mechanisms as potential regulators of the protective immune response against Schistosoma mansoni. Anti-idiotypic responses were stimulated by immunization of mice with lymphoblasts, bearing specific idiotypic receptors. These receptors were produced in vitro by stimulation of Ag-reactive T cells by soluble cercarial immunogen, keyhole limpet hemocyanin, or Con A. The animals were then exposed to irradiated cercariae, keyhole limpet hemocyanin, or SRBC. The results indicate that the soluble cercarial immunogen lymphoblast recipient mice demonstrated reduction in a number of parameters of their immune response to schistosome Ag, including resistance to challenge by parasites. These changes were immunologically specific. Anti-idiotypic antibodies and anti-clonotypic T cell reactivity was demonstrated in the lymphoblast immunized mice. The suppression of reactivity in LBM was mediated by Lyt-1-, L3T-4-, and Lyt-2+ lymphocytes. These studies suggest that idiotypically dependent pathways might be important for the regulation of resistance to schistosomiasis.

The immune response to Schistosoma mansoni infections in inbred rats. VI. Regulation by T cell subpopulations

These studies assess the roles of subpopulations of T lymphocytes in inducing and modulating resistance to Schistosoma mansoni. CDF rats were depleted of RT 7.1+ (anti-Pan-T), W3/25+ (anti-T helper/inducer), or OX8+ (anti-T suppressor) cells by the in vivo administration of monoclonal antibodies (mAb). The development of parasites and immunity to challenge by S. mansoni were compared with results in undepleted normal and congenitally athymic rats. Discrete subpopulations of T lymphocytes were adoptively transferred to ascertain effects upon parasite development and the protective immune response. In vitro studies, involving utilizing cocultivation of cell subpopulations +/- cyclosporin A, were utilized to dissect mechanisms. Depletion of T lymphocytes by anti-RT7.1 mAb and anti-W3/25 mAb resulted in augmented initial worm development, suboptimal resistance, and decreased antibody and delayed-type hypersensitive reactivity directed against schistosome antigens. Depletion with OX8 mAb produced opposite effects. The adoptive transfer of T cell subpopulations produced concordant results with T cell regulation expressed B cell-dependent effector mechanisms. The coadoptive transfer of cells resulted in the suppression of resistance afforded by the W3/25+ cells by OX8+ cells, which could be augmented in vitro by cyclosporin A. Thus, protective immunity to S. mansoni in rats is regulated by discrete subpopulations of T lymphocytes. The findings suggest the possibility of selective immune regulation of resistance based on the manipulation of specific T cell subpopulation.

The immune response to Schistosoma mansoni infections in inbred rats. VI. Regulation by T cell subpopulations

These studies assess the roles of subpopulations of T lymphocytes in inducing and modulating resistance to Schistosoma mansoni. CDF rats were depleted of RT 7.1+ (anti-Pan-T), W3/25+ (anti-T helper/inducer), or OX8+ (anti-T suppressor) cells by the in vivo administration of monoclonal antibodies (mAb). The development of parasites and immunity to challenge by S. mansoni were compared with results in undepleted normal and congenitally athymic rats. Discrete subpopulations of T lymphocytes were adoptively transferred to ascertain effects upon parasite development and the protective immune response. In vitro studies, involving utilizing cocultivation of cell subpopulations +/- cyclosporin A, were utilized to dissect mechanisms. Depletion of T lymphocytes by anti-RT7.1 mAb and anti-W3/25 mAb resulted in augmented initial worm development, suboptimal resistance, and decreased antibody and delayed-type hypersensitive reactivity directed against schistosome antigens. Depletion with OX8 mAb produced opposite effects. The adoptive transfer of T cell subpopulations produced concordant results with T cell regulation expressed B cell-dependent effector mechanisms. The coadoptive transfer of cells resulted in the suppression of resistance afforded by the W3/25+ cells by OX8+ cells, which could be augmented in vitro by cyclosporin A. Thus, protective immunity to S. mansoni in rats is regulated by discrete subpopulations of T lymphocytes. The findings suggest the possibility of selective immune regulation of resistance based on the manipulation of specific T cell subpopulation.